ID |
Date |
Author |
Project |
Subject |
Run Number |
Events |
StartTime |
EndTime |
43
|
Fri Aug 21 06:31:29 2009 |
Christian Irmler | BELLE | APVDAQ + telescope | run6873 | 80173 | 21.08.2009 00:47:38 | 21.08.2009 06:07:02 |
4 Belle DUTs
HV=80V, 40 MHz, 6 sample, 120 GeV
beam position: p-side: APV2 of Origami, n-side: between APV1 and 2 of Origami (center of sensors)
JP-module is hit at APV3, module seems to be on a higher position than in past beam test (eventuelly flipped)
run interrupted after 80173 --> bad timing, peak was at 4 th or 5 th sample |
44
|
Fri Aug 21 06:34:39 2009 |
Christian Irmler | BELLE | APVDAQ + telescope 40 MHz | run005 | 75000 | 21.08.2009 06:10:41 | 21.08.2009 10:37:33 |
was originally run004, renamed after run was stopped to avoid duplicate names
4 Belle DUTs
HV=80V, 40 MHz, 6 sample, 120 GeV
beam position: p-side: APV2 of Origami, n-side: between APV1 and 2 of Origami (center of sensors)
table position y (height): 94.3
JP-module is hit at APV3, module seems to be on a higher position than in past beam test (eventuelly flipped)
same as run6873, but w improved timing --> peak is now at sample 2 or 3
since eudetmac was not reachable by VNC, the telescope has not been restarted !
|
45
|
Fri Aug 21 12:05:31 2009 |
Christian Irmler | BELLE | APVDAQ standalone 40 MHz hit mode | run006 | interrupted | 21.08.2009 10:41:51 | 21.08.2009 10:54:37 |
4 Belle DUTs
HV=80V, 40 MHz, 6 sample, 120 GeV
beam position: p-side: APV2 of Origami, n-side: between APV1 and 2 of Origami (center of sensors)
table position y (height): 94.3
zero supressed w/o bad strip definition of origami module
JP-module is hit at APV3, module seems to be on a higher position than in past beam test (eventuelly flipped)
|
46
|
Fri Aug 21 12:06:06 2009 |
Christian Irmler | BELLE | APVDAQ standalone 40 MHz | run007 | interrupted | 21.08.2009 11:06:45 | 21.08.2009 11:10:40 |
4 Belle DUTs
HV=80V, 40 MHz, 6 sample, 120 GeV
beam position: p-side: APV2 of Origami, n-side: between APV1 and 2 of Origami (center of sensors)
JP-module is hit at APV3, module seems to be on a higher position than in past beam test (eventuelly flipped)
zero supressed w bad strip definition of origami module, but reverse readout order of APV 2 and 3 on p-side |
47
|
Fri Aug 21 12:06:29 2009 |
Christian Irmler | BELLE | APVDAQ standalone hit mode 40 MHz | run008 | 75000 | 21.08.2009 11:15:09 | 21.08.2009 11:29:53 |
4 Belle DUTs
HV=80V, 40 MHz, 6 sample, 120 GeV
beam position: p-side: APV2 of Origami, n-side: between APV1 and 2 of Origami (center of sensors)
JP-module is hit at APV3, module seems to be on a higher position than in past beam test (eventuelly flipped)
same as run6873, but w improved timing --> peak is now at sample 2 or 3
since eudetmac was not reachable by VNC, the telescope has not been restarted !
zero supressed w bad strip definition of origami module, but natural readout order of APV 2 and 3 on p-side
hit cut = 4 |
48
|
Fri Aug 21 12:06:39 2009 |
Christian Irmler | BELLE | APVDAQ standalone hit mode 40 MHz | run009 | 75000 | 21.08.2009 11:48:22 | 21.08.2009 12:01:53 |
4 Belle DUTs
HV=80V, 40 MHz, 6 sample, 120 GeV
beam position: p-side: APV2 of Origami, n-side: between APV1 and 2 of Origami (center of sensors)
JP-module is hit at APV3, module seems to be on a higher position than in past beam test (eventuelly flipped)
same as run6873, but w improved timing --> peak is now at sample 2 or 3
since eudetmac was not reachable by VNC, the telescope has not been restarted !
zero supressed w bad strip definition of origami module, but natural readout order of APV 2 and 3 on p-side
hit cut = 5 |
49
|
Fri Aug 21 12:08:44 2009 |
Christian Irmler | BELLE | APVDAQ standalone 40 MHz | pedcorr003 | | 21.08.2009 12:08:33 | 21.08.2009 12:18:45 |
4 Belle DUTs
HV=80V, 40 MHz
pedestal correction
beam position: p-side: APV2 of Origami, n-side: between APV1 and 2 of Origami (center of sensors)
|
50
|
Fri Aug 21 12:22:43 2009 |
Christian Irmler | BELLE | APVDAQ standalone 31.8 MHz hit mode | run010 | 75000 | 21.08.2009 12:53:02 | 21.08.2009 13:35:01 |
4 Belle DUTs
HV=80V, 31.8 MHz, 6 sample, 120 GeV
switched to external clock source
processed mode, hit cut = 4
beam position: p-side: APV2 of Origami, n-side: between APV1 and 2 of Origami (center of sensors)
JP-module is hit at APV3, module seems to be on a higher position than in past beam test (eventuelly flipped) |
51
|
Fri Aug 21 13:38:20 2009 |
Christian Irmler | BELLE | APVDAQ standalone 31.8 MHz hit mode | run011 | 75000 | 21.08.2009 13:35:25 | |
4 Belle DUTs
HV=80V, 31.8 MHz, 6 sample, 120 GeV
external clock source
processed mode, hit cut = 5
beam position: p-side: APV2 of Origami, n-side: between APV1 and 2 of Origami (center of sensors)
JP-module is hit at APV3, module seems to be on a higher position than in past beam test (eventuelly flipped) |
52
|
Fri Aug 21 14:18:11 2009 |
Christian Irmler | BELLE | internal calibration 31.8 MHz transparent mode | cal004 | | 21.08.2009 14:21:40 | 21.08.2009 15:01:24 |
Belle DUT, intcal
HV=80V, 31.8 MHz, no beam
transparent mode
Origami p-side APV 2&3 with reverse readout order |
53
|
Fri Aug 21 15:27:08 2009 |
Christian Irmler | BELLE | internal calibration 31.8 MHz hit mode | cal005 | | 21.08.2009 15:34:43 | 21.08.2009 16:29:47 |
Belle DUT, intcal
HV=80V, 31.8 MHz, no beam
hit mode
Origami p-side APV 2&3 with reverse readout order |
54
|
Fri Aug 21 16:37:22 2009 |
Christian Irmler | BELLE | internal calibration 40 MHz hit mode | cal006 | | 21.08.2009 16:30:33 | |
Belle DUT, intcal
HV=80V, 40 MHz, no beam
hit mode
switched back to internal 40 MHz clock |
55
|
Fri Aug 21 17:14:58 2009 |
Wolfgang Kiesenhofer | | S/N Histograms Raw (no data selection) | run001 (strips), run002 (pitch adapter), run003 (upper edge) | | | |
|
Attachment 1: sn_langaufit_raw_strips.pdf
|
Attachment 2: sn_langaufit_raw_pa.pdf
|
Attachment 3: sn_langaufit_raw_edgerun.pdf
|
56
|
Fri Aug 21 18:07:57 2009 |
Christian Irmler | BELLE | APVDAQ standalone 31.8 MHz | pedcorr004 | | 21.08.2009 17:49:10 | 21.08.2009 18:24:31 |
4 Belle DUTs
HV=80V, 31.8 MHz
pedestal correction
transparent mode
beam on
|
57
|
Fri Aug 21 18:35:13 2009 |
Christian Irmler | BELLE | APVDAQ + telescope 31.8 MHz transparent mode | run012 | 60000 | 21.08.2009 18:31:01 | 21.08.2009 23:25:03 |
4 Belle DUTs
HV=80V, 31.8 MHz, 6 sample, 120 GeV
external clock source
transparent mode
beam position: p-side: APV2 of Origami, n-side: between APV1 and 2 of Origami (center of sensors), beam spot: 9x9 mm
JP-module is hit at APV3, module seems to be on a higher position than in past beam test (eventuelly flipped)
APVDAQ and telescope runs are not synchronized |
58
|
Fri Aug 21 22:42:32 2009 |
Thomas Bergauer | common | EUDAQ config file used when running with telescope | | | | |
Used until Friday, 21.08.09:
AndMask = 0xf # 4x4 mm scintillator for trigger
Used since Friday, 21.08.09:
AndMask = 0xc # 9x9 mm scintillator for trigger
Local trigger using TLU only: ALWAYS WITH 9x9mm scintillator
|
Attachment 1: testfortis_with_eudrb_beam_backpressure_WITH_SILC.conf
|
[RunControl]
RunSizeLimit = 1800000000
NoTrigWarnTime = 10
[DataCollector]
[LogCollector]
SaveLevel = EXTRA
PrintLevel = INFO
[Producer.TLU]
AndMask = 0xc # 9x9 mm scintillaotr for trigger
#AndMask = 0xf # 4x4 mm scintillator for trigger
OrMask = 0
VetoMask = 0
# EUDRB plugged into DUT#4 , FORTIS plugged into DUT#1, SiLC plugged into DUT#0
#DutMask = 20 # EUDRB, FORTIS, SiLC in
DutMask = 17 # FORTIS, SiLC in
EnableDUTVeto = 2#0
TriggerInterval = 0
TrigRollover = 0
StrobePeriod = 16000000
StrobeWidth = 480000
[Producer.EUDRB]
Version = 2
Det = MIMOTEL
Mode = ZS
Unsynchronized = 1
AdcDelay = 3
ClkSelect = 2
#Marker1 = 0xff
#Marker2 = 0xff
PostDetResetDelay = 4
PedestalFile = auto
IDOffset = 0
NumBoards = 6
Board0.Slot = 3
Board1.Slot = 5
Board2.Slot = 7
Board3.Slot = 9
Board4.Slot = 11
Board5.Slot = 13
[Producer.FORTIS]
# Need \ not / for directory name with Cygwin...
# ExecutableDirectory = /home/cussans/optodaq/halsall_test_v5/
ExecutableDirectory = /home/cussans/optodaq/MyF11/
# ExecutableDirectory = /home/cussans/optodaq/MyF10/
ExecutableProcessName = optodaqV.exe
#ExecutableFilename = test_run_128_block_mod_C2.bat
ExecutableFilename = test_run_512_128_block_mod_CX.bat
# ExecutableFilename = test_run_512_448_block_mod_full.bat
ExecutableArgs =
NumRows = 512
NumColumns = 128
|
59
|
Sat Aug 22 01:06:34 2009 |
Christian Irmler | BELLE | APVDAQ + telescope 40 MHz transparent mode (cooling?) | run013 | 75000 | 21.08.2009 23:49:38 | 22.08.2009 03:21:48 |
Belle DUT, tranparent mode
HV=80V, 40 MHz, beam on, 120 GeV
6 samples
chiller set to 13 deg.
beam position: p-side: APV2 of Origami, n-side: between APV1 and 2 of Origami (center of sensors), beam spot: 9x9 mm
JP-module is hit at APV3, module seems to be on a higher position than in past beam test (eventuelly flipped)
APVDAQ and telescope runs are not synchronized
trigger rate: about 300 - 500 ev / spill
there was probably no water flow throught the pipe of the origami module during this run --> must be repeated |
60
|
Sat Aug 22 03:27:13 2009 |
Thomas Bergauer | BELLE | APVDAQ + telescope 31,8 MHz transparent mode (cooling?) | run014 | 75k | 22.08.2009 03:25:23 | 22.08.2009 07:08:09 |
HV=80V, 31.8 MHz, beam on, 120 GeV
6 samples
chiller set to 13 deg.
f=31.8 MHz
config file: cern09_belle_31.8mhz_multi6.cfg
there was probably no water flow throught the pipe of the origami module during this run --> must be repeated
|
61
|
Sat Aug 22 08:32:02 2009 |
Thomas Bergauer | BELLE | APVDAQ + telescope 31,8 MHz hit mode (cooling?) | run015 | 75k | 22.08.2009 08:15:05 | 22.08.2009 09:25:21 |
HV=80V, 31.8 MHz, beam on, 120 GeV
6 samples, hit mode, hitcut=4
chiller set to 13 deg.
f=31.8 MHz
config file: cern09_belle_31.8mhz_hit_multi6.cfg
there was probably no water flow throught the pipe of the origami module during this run --> must be repeated
|
62
|
Sat Aug 22 09:44:50 2009 |
Thomas Bergauer | BELLE | APVDAQ + telescope 31,8 MHz hit mode (cooling?) | run016 | 75k | 22.08.2009 09:42:38 | 22.08.2009 10:24:05 |
HV=80V, 31.8 MHz, beam on, 120 GeV
6 samples, hit mode, hitcut=5
chiller set to 13 deg.
f=31.8 MHz
config file: cern09_belle_31.8mhz_hit_cut5_multi6.cfg
there was probably no water flow throught the pipe of the origami module during this run!
|